Session Details
[7p-N105-1~11]22.1 Joint Session M "Phonon Engineering"
Sun. Sep 7, 2025 1:30 PM - 4:30 PM JST
Sun. Sep 7, 2025 4:30 AM - 7:30 AM UTC
Sun. Sep 7, 2025 4:30 AM - 7:30 AM UTC
N105 (Lecture Hall North)
[7p-N105-1]Control of thermal conductivity using UV-light and magnon conduction in Ca9La5Cu24O41 single crystal
〇(D)Peyman Lotfalinezhad1, Masaharu Matsunami1, Tsunehiro Takeuchi1 (1.Toyota Tech. Inst.)
[7p-N105-2]Thermal conductivity measurement of unprocessed microparticles for TIMs
〇(PC)Pauline Pradal1, Ito Soutaro1, Kim Byunggi2, Masahiro Nomura1 (1.Inst. of Industrial Science, Depart. of Informatics and Electronics, The University of Tokyo, 2.Inst. of Science Tokyo)
[7p-N105-3]Anharmonicity-Induced Enhancement of Thermal Transport in SiGe Alloyed Nanowires
〇(D)Wei Zhang1,2, Shiyun Xiong3, Yangyu Guo2, Hongliang Yi2, Sebastian Volz1,4, Masahiro Nomura1 (1.IIS Univ. of Tokyo, 2.Harbin Inst. Technol., 3.Guangdong Univ. of Technol., 4.LIMMS Univ. of Tokyo)
[7p-N105-4]The role of coherence in two-dimensional graphene/h-BN superlattice
〇(D)Huang Xiaoyu1,2, Sebastian Volz1,3, Masahiro Nomura1, Yuxiang Ni2 (1.IIS Univ. of Tokyo, 2.SWJTU, 3.LIMMS)
[7p-N105-5]Machine-learned molecular dynamics uncover phonon coherence and lower bounds of thermal transport in disordered superlattices
〇(P)Xin Wu1, Zheyong Fan2, Penghua Ying3, Masahiro Nomura1 (1.Univ. of Tokyo, 2.Bohai Univ., 3.Tel Aviv Univ.)
[7p-N105-6]Revisiting van der Waals interactions in AlN-Copper via Machine Learning Potential
〇(D)Wang Weitao1, Yunhui Wu1, Sebastian Volz2, Masahiro Nomura1 (1.The Univ. of Tokyo, 2.LIMMS)
[7p-N105-7]Phonon Transport in Silicon Thin Film Thermoelectric Material with SiGe Interfaces by Phonon Monte-Carlo Simulation
〇Ayaka Odashima1,2, Ryoto Yanagisawa1, Weitao Wang1, Roman Anufriev1, Kentarou Sawano2, Masahiro Nomura1 (1.IIS Univ. of Tokyo, 2.Tokyo City Univ.)
[7p-N105-8]Evaluation of phonon spectrum for GeO2/Ge interface by grazing incidence inelastic X-ray scattering
〇Ryo Yokogawa1,2,3, Sota Higashi4, Taishun Manjo5, Atsushi Ogura4,3 (1.RISE, Hiroshima Univ., 2.Grad. Sch. of Eng., Hiroshima Univ., 3.MREL, 4.Meiji Univ., 5.JASRI)
[7p-N105-9]High-Thermal-Conductance GaN/Diamond Interface Achieved by Surface-Activated Bonding
〇BIN XU1, Fengwen Mu2, Shiqian Hu3, Rulei Guo1, Junichiro Shiomi1 (1.Univ. Tokyo, 2.CAS, 3.Yunnan Univ.)
[7p-N105-10]Relationship between thermal conductivity and crystal structure of PET fiber
〇Hiromu Hamasaki1, Yuki Tanimoto2, Haruta Adachi1, Hiroya Ikeda1, Yutaka Ohkoshi2 (1.Shizuoka Univ., 2.Shinshu Univ.)
[7p-N105-11]Prediction of Thermal Properties Using First-Principles Anharmonic Phonon Property Database
〇Masato Ohnishi1,2, Tianqi Deng3, Pol Torres4, Zhihao Xu5, Terumasa Tadano6, Haoming Zhang3, Wei Nong7, Masatoshi Hanai8, Zhiting Tian9, Ming Hu10, Xiulin Ruan11, Ryo Yoshida2,12,13, Toyotaro Suzumura8, Lucas Lindsay14, Alan McGaughey15, Tengfei Luo5, Kedar Hippalgaonkar7,16,17, Junichiro Shiomi1,18 (1.Univ. of Tokyo, Eng, 2.ISM, 3.Zhejiang Univ., 4.Eurecat, 5.Univ. of Notre Dame, 6.NIMS, 7.Nanyang Tech. Univ., 8.Univ. of Tokyo, ICT, 9.Cornell Univ., 10.Univ. South Carolina, 11.Purdue Univ., 12.SOKENDAI, 13.RIKEN-TRIP, 14.Oak Ridge Natio. Lab, 15.Carnegie Mellon, 16.A*STAR, 17.Natio. Univ. Singapore, 18.RIKEN-AIP)